The effect of electric double layers, zeta potential and pH on apparent viscosity of non-Brownian suspensions

Sudharsan Srinivasan; Harry E.A. Van den Akker; Orest Shardt

doi:10.1002/aic.18171

The effect of electric double layers, zeta potential and pH on apparent viscosity of non-Brownian suspensions

Sudharsan Srinivasan, Harry E.A. Van den Akker^*, Orest Shardt

^*Corresponding author for this work

ChemE/Transport Phenomena

Research output: Contribution to journal › Article › Scientific › peer-review

1 Citation (Scopus)

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Abstract

We carried out 3D simulations of monodisperse particle suspensions subjected to a constant shear rate with the view to investigate the effect of electrical double layers around the particles on apparent suspension viscosities. To this end, expressions for Debye length, zeta potential, and ionic strength (pH) of the liquid were incorporated into our in-house lattice Boltzmann code that uses the immersed boundary method and includes subgrid lubrication models. We varied the solids concentration and particle radius, keeping the particle Reynolds number equal to 0.1. We report on results with respect to the effect of pH in the range 9 through 12 and of Debye length on apparent viscosity and spatial suspension structures, particularly at higher solids volume fractions, and on the effect of flow reversals.

Original language	English
Article number	e18171
Number of pages	11
Journal	AIChE Journal
Volume	69
Issue number	9
DOIs	https://doi.org/10.1002/aic.18171
Publication status	Published - 2023

Keywords

complex fluids
particulate flows
rheology
solids processing
suspensions

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10.1002/aic.18171

AIChE Journal - 2023 - Srinivasan - The effect of electric double layers zeta potential and pH on apparent viscosity ofFinal published version, 5.67 MBLicence: CC BY-NC-ND

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PY - 2023

Y1 - 2023

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AB - We carried out 3D simulations of monodisperse particle suspensions subjected to a constant shear rate with the view to investigate the effect of electrical double layers around the particles on apparent suspension viscosities. To this end, expressions for Debye length, zeta potential, and ionic strength (pH) of the liquid were incorporated into our in-house lattice Boltzmann code that uses the immersed boundary method and includes subgrid lubrication models. We varied the solids concentration and particle radius, keeping the particle Reynolds number equal to 0.1. We report on results with respect to the effect of pH in the range 9 through 12 and of Debye length on apparent viscosity and spatial suspension structures, particularly at higher solids volume fractions, and on the effect of flow reversals.

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The effect of electric double layers, zeta potential and pH on apparent viscosity of non-Brownian suspensions

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